/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "alloc_arena.hxx" #include "alloc_impl.hxx" #include "internal/rtllifecycle.h" #include "sal/macros.h" #include "osl/diagnose.h" #include #include #include extern AllocMode alloc_mode; /* ================================================================= * * * arena internals. * * ================================================================= */ /** g_arena_list * @internal */ struct rtl_arena_list_st { rtl_memory_lock_type m_lock; rtl_arena_type m_arena_head; }; static rtl_arena_list_st g_arena_list; /** gp_arena_arena * provided for arena_type allocations, and hash_table resizing. * * @internal */ static rtl_arena_type * gp_arena_arena = 0; /** gp_machdep_arena * * Low level virtual memory (pseudo) arena * (platform dependent implementation) * * @internal */ static rtl_arena_type * gp_machdep_arena = 0; /** gp_default_arena */ rtl_arena_type * gp_default_arena = 0; namespace { void * SAL_CALL rtl_machdep_alloc ( rtl_arena_type * pArena, sal_Size * pSize ); void SAL_CALL rtl_machdep_free ( rtl_arena_type * pArena, void * pAddr, sal_Size nSize ); sal_Size rtl_machdep_pagesize(); /* ================================================================= */ /** rtl_arena_segment_constructor() */ int rtl_arena_segment_constructor (void * obj) { rtl_arena_segment_type * segment = (rtl_arena_segment_type*)(obj); QUEUE_START_NAMED(segment, s); QUEUE_START_NAMED(segment, f); return (1); } /** rtl_arena_segment_destructor() */ void rtl_arena_segment_destructor (void * obj) { rtl_arena_segment_type * segment = static_cast< rtl_arena_segment_type * >( obj); assert(QUEUE_STARTED_NAMED(segment, s)); assert(QUEUE_STARTED_NAMED(segment, f)); (void) segment; // avoid warnings } /* ================================================================= */ /** rtl_arena_segment_populate() * * @precond arena->m_lock acquired. */ int rtl_arena_segment_populate ( rtl_arena_type * arena ) { rtl_arena_segment_type *span; sal_Size size = rtl_machdep_pagesize(); span = static_cast< rtl_arena_segment_type * >( rtl_machdep_alloc(gp_machdep_arena, &size)); if (span != 0) { rtl_arena_segment_type *first, *last, *head; sal_Size count = size / sizeof(rtl_arena_segment_type); /* insert onto reserve span list */ QUEUE_INSERT_TAIL_NAMED(&(arena->m_segment_reserve_span_head), span, s); QUEUE_START_NAMED(span, f); span->m_addr = (sal_uIntPtr)(span); span->m_size = size; span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN; /* insert onto reserve list */ head = &(arena->m_segment_reserve_head); for (first = span + 1, last = span + count; first < last; ++first) { QUEUE_INSERT_TAIL_NAMED(head, first, s); QUEUE_START_NAMED(first, f); first->m_addr = 0; first->m_size = 0; first->m_type = 0; } } return (span != 0); } /** rtl_arena_segment_get() * * @precond arena->m_lock acquired. * @precond (*ppSegment == 0) */ inline void rtl_arena_segment_get ( rtl_arena_type * arena, rtl_arena_segment_type ** ppSegment ) { rtl_arena_segment_type * head; assert(*ppSegment == 0); head = &(arena->m_segment_reserve_head); if ((head->m_snext != head) || rtl_arena_segment_populate (arena)) { (*ppSegment) = head->m_snext; QUEUE_REMOVE_NAMED((*ppSegment), s); } } /** rtl_arena_segment_put() * * @precond arena->m_lock acquired. * @postcond (*ppSegment == 0) */ inline void rtl_arena_segment_put ( rtl_arena_type * arena, rtl_arena_segment_type ** ppSegment ) { rtl_arena_segment_type * head; assert(QUEUE_STARTED_NAMED((*ppSegment), s)); assert(QUEUE_STARTED_NAMED((*ppSegment), f)); (*ppSegment)->m_addr = 0; (*ppSegment)->m_size = 0; assert((*ppSegment)->m_type != RTL_ARENA_SEGMENT_TYPE_HEAD); (*ppSegment)->m_type = 0; /* keep as reserve */ head = &(arena->m_segment_reserve_head); QUEUE_INSERT_HEAD_NAMED(head, (*ppSegment), s); /* clear */ (*ppSegment) = 0; } /** rtl_arena_freelist_insert() * * @precond arena->m_lock acquired. */ inline void rtl_arena_freelist_insert ( rtl_arena_type * arena, rtl_arena_segment_type * segment ) { rtl_arena_segment_type * head; head = &(arena->m_freelist_head[highbit(segment->m_size) - 1]); QUEUE_INSERT_TAIL_NAMED(head, segment, f); arena->m_freelist_bitmap |= head->m_size; } /** rtl_arena_freelist_remove() * * @precond arena->m_lock acquired. */ inline void rtl_arena_freelist_remove ( rtl_arena_type * arena, rtl_arena_segment_type * segment ) { if ((segment->m_fnext->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD) && (segment->m_fprev->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD) ) { rtl_arena_segment_type * head; head = segment->m_fprev; assert(arena->m_freelist_bitmap & head->m_size); arena->m_freelist_bitmap ^= head->m_size; } QUEUE_REMOVE_NAMED(segment, f); } /* ================================================================= */ /** RTL_ARENA_HASH_INDEX() */ #define RTL_ARENA_HASH_INDEX_IMPL(a, s, q, m) \ ((((a) + ((a) >> (s)) + ((a) >> ((s) << 1))) >> (q)) & (m)) #define RTL_ARENA_HASH_INDEX(arena, addr) \ RTL_ARENA_HASH_INDEX_IMPL((addr), (arena)->m_hash_shift, (arena)->m_quantum_shift, ((arena)->m_hash_size - 1)) /** rtl_arena_hash_rescale() * * @precond arena->m_lock released. */ void rtl_arena_hash_rescale ( rtl_arena_type * arena, sal_Size new_size ) { rtl_arena_segment_type ** new_table; sal_Size new_bytes; new_bytes = new_size * sizeof(rtl_arena_segment_type*); new_table = (rtl_arena_segment_type **)rtl_arena_alloc (gp_arena_arena, &new_bytes); if (new_table != 0) { rtl_arena_segment_type ** old_table; sal_Size old_size, i; memset (new_table, 0, new_bytes); RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock)); old_table = arena->m_hash_table; old_size = arena->m_hash_size; // SAL_INFO( // "sal.rtl", // "rtl_arena_hash_rescale(" << arena->m_name << "): nseg: " // << (arena->m_stats.m_alloc - arena->m_stats.m_free) << " (ave: " // << ((arena->m_stats.m_alloc - arena->m_stats.m_free) // >> arena->m_hash_shift) // << "), frees: " << arena->m_stats.m_free << " [old_size: " // << old_size << ", new_size: " << new_size << ']'); arena->m_hash_table = new_table; arena->m_hash_size = new_size; arena->m_hash_shift = highbit(arena->m_hash_size) - 1; for (i = 0; i < old_size; i++) { rtl_arena_segment_type * curr = old_table[i]; while (curr != 0) { rtl_arena_segment_type * next = curr->m_fnext; rtl_arena_segment_type ** head; head = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, curr->m_addr)]); curr->m_fnext = (*head); (*head) = curr; curr = next; } old_table[i] = 0; } RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); if (old_table != arena->m_hash_table_0) { sal_Size old_bytes = old_size * sizeof(rtl_arena_segment_type*); rtl_arena_free (gp_arena_arena, old_table, old_bytes); } } } /** rtl_arena_hash_insert() * ...and update stats. */ inline void rtl_arena_hash_insert ( rtl_arena_type * arena, rtl_arena_segment_type * segment ) { rtl_arena_segment_type ** ppSegment; ppSegment = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, segment->m_addr)]); segment->m_fnext = (*ppSegment); (*ppSegment) = segment; arena->m_stats.m_alloc += 1; arena->m_stats.m_mem_alloc += segment->m_size; } /** rtl_arena_hash_remove() * ...and update stats. */ rtl_arena_segment_type * rtl_arena_hash_remove ( rtl_arena_type * arena, sal_uIntPtr addr, sal_Size size ) { rtl_arena_segment_type *segment, **segpp; sal_Size lookups = 0; segpp = &(arena->m_hash_table[RTL_ARENA_HASH_INDEX(arena, addr)]); while ((segment = *segpp) != 0) { if (segment->m_addr == addr) { *segpp = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment; break; } /* update lookup miss stats */ lookups += 1; segpp = &(segment->m_fnext); } assert(segment != 0); // bad free if (segment != 0) { assert(segment->m_size == size); (void) size; // avoid warnings arena->m_stats.m_free += 1; arena->m_stats.m_mem_alloc -= segment->m_size; if (lookups > 1) { sal_Size nseg = (sal_Size)(arena->m_stats.m_alloc - arena->m_stats.m_free); if (nseg > 4 * arena->m_hash_size) { if (!(arena->m_flags & RTL_ARENA_FLAG_RESCALE)) { sal_Size ave = nseg >> arena->m_hash_shift; sal_Size new_size = arena->m_hash_size << (highbit(ave) - 1); arena->m_flags |= RTL_ARENA_FLAG_RESCALE; RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); rtl_arena_hash_rescale (arena, new_size); RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock)); arena->m_flags &= ~RTL_ARENA_FLAG_RESCALE; } } } } return (segment); } /* ================================================================= */ /** rtl_arena_segment_alloc() * allocate (and remove) segment from freelist * * @precond arena->m_lock acquired * @precond (*ppSegment == 0) */ int rtl_arena_segment_alloc ( rtl_arena_type * arena, sal_Size size, rtl_arena_segment_type ** ppSegment ) { int index = 0; assert(*ppSegment == 0); if (!RTL_MEMORY_ISP2(size)) { int msb = highbit(size); if (RTL_ARENA_FREELIST_SIZE == sal::static_int_cast< size_t >(msb)) { /* highest possible freelist: fall back to first fit */ rtl_arena_segment_type *head, *segment; head = &(arena->m_freelist_head[msb - 1]); for (segment = head->m_fnext; segment != head; segment = segment->m_fnext) { if (segment->m_size >= size) { /* allocate first fit segment */ (*ppSegment) = segment; break; } } goto dequeue_and_leave; } /* roundup to next power of 2 */ size = (((sal_Size)1) << msb); } index = lowbit(RTL_MEMORY_P2ALIGN(arena->m_freelist_bitmap, size)); if (index > 0) { /* instant fit: allocate first free segment */ rtl_arena_segment_type *head; head = &(arena->m_freelist_head[index - 1]); (*ppSegment) = head->m_fnext; assert((*ppSegment) != head); } dequeue_and_leave: if (*ppSegment != 0) { /* remove from freelist */ rtl_arena_freelist_remove (arena, (*ppSegment)); } return (*ppSegment != 0); } /** rtl_arena_segment_create() * import new (span) segment from source arena * * @precond arena->m_lock acquired * @precond (*ppSegment == 0) */ int rtl_arena_segment_create ( rtl_arena_type * arena, sal_Size size, rtl_arena_segment_type ** ppSegment ) { assert((*ppSegment) == 0); if (arena->m_source_alloc != 0) { rtl_arena_segment_get (arena, ppSegment); if (*ppSegment != 0) { rtl_arena_segment_type * span = 0; rtl_arena_segment_get (arena, &span); if (span != 0) { /* import new span from source arena */ RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); span->m_size = size; span->m_addr = (sal_uIntPtr)(arena->m_source_alloc)( arena->m_source_arena, &(span->m_size)); RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock)); if (span->m_addr != 0) { /* insert onto segment list, update stats */ span->m_type = RTL_ARENA_SEGMENT_TYPE_SPAN; QUEUE_INSERT_HEAD_NAMED(&(arena->m_segment_head), span, s); arena->m_stats.m_mem_total += span->m_size; (*ppSegment)->m_addr = span->m_addr; (*ppSegment)->m_size = span->m_size; (*ppSegment)->m_type = RTL_ARENA_SEGMENT_TYPE_FREE; QUEUE_INSERT_HEAD_NAMED(span, (*ppSegment), s); /* report success */ return (1); } rtl_arena_segment_put (arena, &span); } rtl_arena_segment_put (arena, ppSegment); } } return (0); } /** rtl_arena_segment_coalesce() * mark as free and join with adjacent free segment(s) * * @precond arena->m_lock acquired * @precond segment marked 'used' */ void rtl_arena_segment_coalesce ( rtl_arena_type * arena, rtl_arena_segment_type * segment ) { rtl_arena_segment_type *next, *prev; /* mark segment free */ assert(segment->m_type == RTL_ARENA_SEGMENT_TYPE_USED); segment->m_type = RTL_ARENA_SEGMENT_TYPE_FREE; /* try to merge w/ next segment */ next = segment->m_snext; if (next->m_type == RTL_ARENA_SEGMENT_TYPE_FREE) { assert(segment->m_addr + segment->m_size == next->m_addr); segment->m_size += next->m_size; /* remove from freelist */ rtl_arena_freelist_remove (arena, next); /* remove from segment list */ QUEUE_REMOVE_NAMED(next, s); /* release segment descriptor */ rtl_arena_segment_put (arena, &next); } /* try to merge w/ prev segment */ prev = segment->m_sprev; if (prev->m_type == RTL_ARENA_SEGMENT_TYPE_FREE) { assert(prev->m_addr + prev->m_size == segment->m_addr); segment->m_addr = prev->m_addr; segment->m_size += prev->m_size; /* remove from freelist */ rtl_arena_freelist_remove (arena, prev); /* remove from segment list */ QUEUE_REMOVE_NAMED(prev, s); /* release segment descriptor */ rtl_arena_segment_put (arena, &prev); } } /* ================================================================= */ /** rtl_arena_constructor() */ void rtl_arena_constructor (void * obj) { rtl_arena_type * arena = (rtl_arena_type*)(obj); rtl_arena_segment_type * head; size_t i; memset (arena, 0, sizeof(rtl_arena_type)); QUEUE_START_NAMED(arena, arena_); (void) RTL_MEMORY_LOCK_INIT(&(arena->m_lock)); head = &(arena->m_segment_reserve_span_head); rtl_arena_segment_constructor (head); head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD; head = &(arena->m_segment_reserve_head); rtl_arena_segment_constructor (head); head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD; head = &(arena->m_segment_head); rtl_arena_segment_constructor (head); head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD; for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++) { head = &(arena->m_freelist_head[i]); rtl_arena_segment_constructor (head); head->m_size = (((sal_Size)1) << i); head->m_type = RTL_ARENA_SEGMENT_TYPE_HEAD; } arena->m_hash_table = arena->m_hash_table_0; arena->m_hash_size = RTL_ARENA_HASH_SIZE; arena->m_hash_shift = highbit(arena->m_hash_size) - 1; } /** rtl_arena_destructor() */ void rtl_arena_destructor (void * obj) { rtl_arena_type * arena = (rtl_arena_type*)(obj); rtl_arena_segment_type * head; size_t i; assert(QUEUE_STARTED_NAMED(arena, arena_)); RTL_MEMORY_LOCK_DESTROY(&(arena->m_lock)); head = &(arena->m_segment_reserve_span_head); assert(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD); rtl_arena_segment_destructor (head); head = &(arena->m_segment_reserve_head); assert(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD); rtl_arena_segment_destructor (head); head = &(arena->m_segment_head); assert(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD); rtl_arena_segment_destructor (head); for (i = 0; i < RTL_ARENA_FREELIST_SIZE; i++) { head = &(arena->m_freelist_head[i]); assert(head->m_size == (((sal_Size)1) << i)); assert(head->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD); rtl_arena_segment_destructor (head); } assert(arena->m_hash_table == arena->m_hash_table_0); assert(arena->m_hash_size == RTL_ARENA_HASH_SIZE); assert( arena->m_hash_shift == sal::static_int_cast< unsigned >(highbit(arena->m_hash_size) - 1)); } /* ================================================================= */ /** rtl_arena_activate() */ rtl_arena_type * rtl_arena_activate ( rtl_arena_type * arena, const char * name, sal_Size quantum, sal_Size quantum_cache_max, rtl_arena_type * source_arena, void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *), void (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size) ) { assert(arena != 0); if (arena != 0) { (void) snprintf (arena->m_name, sizeof(arena->m_name), "%s", name); if (!RTL_MEMORY_ISP2(quantum)) { /* roundup to next power of 2 */ quantum = (((sal_Size)1) << highbit(quantum)); } quantum_cache_max = RTL_MEMORY_P2ROUNDUP(quantum_cache_max, quantum); arena->m_quantum = quantum; arena->m_quantum_shift = highbit(arena->m_quantum) - 1; arena->m_qcache_max = quantum_cache_max; arena->m_source_arena = source_arena; arena->m_source_alloc = source_alloc; arena->m_source_free = source_free; if (arena->m_qcache_max > 0) { char namebuf[RTL_ARENA_NAME_LENGTH + 1]; int i, n = (arena->m_qcache_max >> arena->m_quantum_shift); sal_Size size = n * sizeof(rtl_cache_type*); arena->m_qcache_ptr = (rtl_cache_type**)rtl_arena_alloc (gp_arena_arena, &size); if (!(arena->m_qcache_ptr)) { /* out of memory */ return (0); } for (i = 1; i <= n; i++) { size = i * arena->m_quantum; (void) snprintf (namebuf, sizeof(namebuf), "%s_%" SAL_PRIuUINTPTR, arena->m_name, size); arena->m_qcache_ptr[i - 1] = rtl_cache_create(namebuf, size, 0, NULL, NULL, NULL, NULL, arena, RTL_CACHE_FLAG_QUANTUMCACHE); } } /* insert into arena list */ RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock)); QUEUE_INSERT_TAIL_NAMED(&(g_arena_list.m_arena_head), arena, arena_); RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock)); } return (arena); } /** rtl_arena_deactivate() */ void rtl_arena_deactivate ( rtl_arena_type * arena ) { rtl_arena_segment_type * head, * segment; /* remove from arena list */ RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock)); QUEUE_REMOVE_NAMED(arena, arena_); RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock)); /* cleanup quantum cache(s) */ if ((arena->m_qcache_max > 0) && (arena->m_qcache_ptr != 0)) { int i, n = (arena->m_qcache_max >> arena->m_quantum_shift); for (i = 1; i <= n; i++) { if (arena->m_qcache_ptr[i - 1] != 0) { rtl_cache_destroy (arena->m_qcache_ptr[i - 1]); arena->m_qcache_ptr[i - 1] = 0; } } rtl_arena_free ( gp_arena_arena, arena->m_qcache_ptr, n * sizeof(rtl_cache_type*)); arena->m_qcache_ptr = 0; } /* check for leaked segments */ // SAL_INFO( // "sal.rtl", // "rtl_arena_deactivate(" << arena->m_name << "): allocs: " // << arena->m_stats.m_alloc << ", frees: " << arena->m_stats.m_free // << "; total: " << arena->m_stats.m_mem_total << ", used: " // << arena->m_stats.m_mem_alloc); if (arena->m_stats.m_alloc > arena->m_stats.m_free) { sal_Size i, n; // SAL_INFO( // "sal.rtl", // "rtl_arena_deactivate(" << arena->m_name << "): cleaning up " // << (arena->m_stats.m_alloc - arena->m_stats.m_free) // << " leaked segment(s) [" << arena->m_stats.m_mem_alloc // << " bytes]"); /* cleanup still used segment(s) */ for (i = 0, n = arena->m_hash_size; i < n; i++) { while ((segment = arena->m_hash_table[i]) != 0) { /* pop from hash table */ arena->m_hash_table[i] = segment->m_fnext, segment->m_fnext = segment->m_fprev = segment; /* coalesce w/ adjacent free segment(s) */ rtl_arena_segment_coalesce (arena, segment); /* insert onto freelist */ rtl_arena_freelist_insert (arena, segment); } } } /* cleanup hash table */ if (arena->m_hash_table != arena->m_hash_table_0) { rtl_arena_free ( gp_arena_arena, arena->m_hash_table, arena->m_hash_size * sizeof(rtl_arena_segment_type*)); arena->m_hash_table = arena->m_hash_table_0; arena->m_hash_size = RTL_ARENA_HASH_SIZE; arena->m_hash_shift = highbit(arena->m_hash_size) - 1; } /* cleanup segment list */ head = &(arena->m_segment_head); for (segment = head->m_snext; segment != head; segment = head->m_snext) { if (segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE) { /* remove from freelist */ rtl_arena_freelist_remove (arena, segment); } else { /* can have only free and span segments here */ assert(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN); } /* remove from segment list */ QUEUE_REMOVE_NAMED(segment, s); /* release segment descriptor */ rtl_arena_segment_put (arena, &segment); } /* cleanup segment reserve list */ head = &(arena->m_segment_reserve_head); for (segment = head->m_snext; segment != head; segment = head->m_snext) { /* remove from segment list */ QUEUE_REMOVE_NAMED(segment, s); } /* cleanup segment reserve span(s) */ head = &(arena->m_segment_reserve_span_head); for (segment = head->m_snext; segment != head; segment = head->m_snext) { /* can have only span segments here */ assert(segment->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN); /* remove from segment list */ QUEUE_REMOVE_NAMED(segment, s); /* return span to g_machdep_arena */ rtl_machdep_free (gp_machdep_arena, (void*)(segment->m_addr), segment->m_size); } } } //namespace /* ================================================================= * * * arena implementation. * * ================================================================= */ /** rtl_arena_create() */ rtl_arena_type * SAL_CALL rtl_arena_create ( const char * name, sal_Size quantum, sal_Size quantum_cache_max, rtl_arena_type * source_arena, void * (SAL_CALL * source_alloc)(rtl_arena_type *, sal_Size *), void (SAL_CALL * source_free) (rtl_arena_type *, void *, sal_Size), SAL_UNUSED_PARAMETER int ) SAL_THROW_EXTERN_C() { rtl_arena_type * result = 0; sal_Size size = sizeof(rtl_arena_type); try_alloc: result = (rtl_arena_type*)rtl_arena_alloc (gp_arena_arena, &size); if (result != 0) { rtl_arena_type * arena = result; rtl_arena_constructor (arena); if (!source_arena) { assert(gp_default_arena != 0); source_arena = gp_default_arena; } result = rtl_arena_activate ( arena, name, quantum, quantum_cache_max, source_arena, source_alloc, source_free ); if (result == 0) { rtl_arena_deactivate (arena); rtl_arena_destructor (arena); rtl_arena_free (gp_arena_arena, arena, size); } } else if (gp_arena_arena == 0) { ensureArenaSingleton(); if (gp_arena_arena) { /* try again */ goto try_alloc; } } return (result); } /** rtl_arena_destroy() */ void SAL_CALL rtl_arena_destroy ( rtl_arena_type * arena ) SAL_THROW_EXTERN_C() { if (arena != 0) { rtl_arena_deactivate (arena); rtl_arena_destructor (arena); rtl_arena_free (gp_arena_arena, arena, sizeof(rtl_arena_type)); } } /** rtl_arena_alloc() */ void * SAL_CALL rtl_arena_alloc ( rtl_arena_type * arena, sal_Size * pSize ) SAL_THROW_EXTERN_C() { void * addr = 0; if ((arena != 0) && (pSize != 0)) { sal_Size size; if (alloc_mode == AMode_SYSTEM) return rtl_allocateMemory(*pSize); size = RTL_MEMORY_ALIGN((*pSize), arena->m_quantum); if (size > arena->m_qcache_max) { /* allocate from segment list */ rtl_arena_segment_type *segment = 0; RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock)); if (rtl_arena_segment_alloc (arena, size, &segment) || rtl_arena_segment_create(arena, size, &segment) ) { /* shrink to fit */ sal_Size oversize; /* mark segment used */ assert(segment->m_type == RTL_ARENA_SEGMENT_TYPE_FREE); segment->m_type = RTL_ARENA_SEGMENT_TYPE_USED; /* resize */ assert(segment->m_size >= size); oversize = segment->m_size - size; if ((oversize >= arena->m_quantum) && (oversize >= arena->m_qcache_max)) { rtl_arena_segment_type * remainder = 0; rtl_arena_segment_get (arena, &remainder); if (remainder != 0) { segment->m_size = size; remainder->m_addr = segment->m_addr + segment->m_size; remainder->m_size = oversize; remainder->m_type = RTL_ARENA_SEGMENT_TYPE_FREE; QUEUE_INSERT_HEAD_NAMED(segment, remainder, s); rtl_arena_freelist_insert (arena, remainder); } } rtl_arena_hash_insert (arena, segment); (*pSize) = segment->m_size; addr = (void*)(segment->m_addr); } RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); } else if (size > 0) { /* allocate from quantum cache(s) */ int index = (size >> arena->m_quantum_shift) - 1; assert(arena->m_qcache_ptr[index] != 0); addr = rtl_cache_alloc (arena->m_qcache_ptr[index]); if (addr != 0) (*pSize) = size; } } return (addr); } /** rtl_arena_free() */ void SAL_CALL rtl_arena_free ( rtl_arena_type * arena, void * addr, sal_Size size ) SAL_THROW_EXTERN_C() { if (arena != 0) { if (alloc_mode == AMode_SYSTEM) { rtl_freeMemory(addr); return; } size = RTL_MEMORY_ALIGN(size, arena->m_quantum); if (size > arena->m_qcache_max) { /* free to segment list */ rtl_arena_segment_type * segment; RTL_MEMORY_LOCK_ACQUIRE(&(arena->m_lock)); segment = rtl_arena_hash_remove (arena, (sal_uIntPtr)(addr), size); if (segment != 0) { rtl_arena_segment_type *next, *prev; /* coalesce w/ adjacent free segment(s) */ rtl_arena_segment_coalesce (arena, segment); /* determine (new) next and prev segment */ next = segment->m_snext, prev = segment->m_sprev; /* entire span free when prev is a span, and next is either a span or a list head */ if (((prev->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN)) && ((next->m_type == RTL_ARENA_SEGMENT_TYPE_SPAN) || (next->m_type == RTL_ARENA_SEGMENT_TYPE_HEAD)) ) { assert( prev->m_addr == segment->m_addr && prev->m_size == segment->m_size); if (arena->m_source_free) { addr = (void*)(prev->m_addr); size = prev->m_size; /* remove from segment list */ QUEUE_REMOVE_NAMED(segment, s); /* release segment descriptor */ rtl_arena_segment_put (arena, &segment); /* remove from segment list */ QUEUE_REMOVE_NAMED(prev, s); /* release (span) segment descriptor */ rtl_arena_segment_put (arena, &prev); /* update stats, return span to source arena */ arena->m_stats.m_mem_total -= size; RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); (arena->m_source_free)(arena->m_source_arena, addr, size); return; } } /* insert onto freelist */ rtl_arena_freelist_insert (arena, segment); } RTL_MEMORY_LOCK_RELEASE(&(arena->m_lock)); } else if (size > 0) { /* free to quantum cache(s) */ int index = (size >> arena->m_quantum_shift) - 1; assert(arena->m_qcache_ptr[index] != 0); rtl_cache_free (arena->m_qcache_ptr[index], addr); } } } /* ================================================================= * * * machdep internals. * * ================================================================= */ #if defined(SAL_UNX) #include #elif defined(SAL_W32) #define MAP_FAILED 0 #endif /* SAL_UNX || SAL_W32 */ namespace { /** rtl_machdep_alloc() */ void * SAL_CALL rtl_machdep_alloc ( rtl_arena_type * pArena, sal_Size * pSize ) { void * addr; sal_Size size = (*pSize); assert(pArena == gp_machdep_arena); #if defined(SOLARIS) && defined(SPARC) /* see @ mmap(2) man pages */ size += (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */ if (size > (4 << 20)) size = RTL_MEMORY_P2ROUNDUP(size, (4 << 20)); else if (size > (512 << 10)) size = RTL_MEMORY_P2ROUNDUP(size, (512 << 10)); else size = RTL_MEMORY_P2ROUNDUP(size, (64 << 10)); size -= (pArena->m_quantum + pArena->m_quantum); /* "red-zone" pages */ #else /* default allocation granularity */ if(pArena->m_quantum < (64 << 10)) { size = RTL_MEMORY_P2ROUNDUP(size, (64 << 10)); } else { size = RTL_MEMORY_P2ROUNDUP(size, pArena->m_quantum); } #endif #if defined(SAL_UNX) addr = mmap (NULL, (size_t)(size), PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0); #elif defined(SAL_W32) addr = VirtualAlloc (NULL, (SIZE_T)(size), MEM_COMMIT, PAGE_READWRITE); #endif /* (SAL_UNX || SAL_W32) */ if (addr != MAP_FAILED) { pArena->m_stats.m_alloc += 1; pArena->m_stats.m_mem_total += size; pArena->m_stats.m_mem_alloc += size; (*pSize) = size; return (addr); } return (NULL); } /** rtl_machdep_free() */ void SAL_CALL rtl_machdep_free ( rtl_arena_type * pArena, void * pAddr, sal_Size nSize ) { assert(pArena == gp_machdep_arena); pArena->m_stats.m_free += 1; pArena->m_stats.m_mem_total -= nSize; pArena->m_stats.m_mem_alloc -= nSize; #if defined(SAL_UNX) (void) munmap(pAddr, nSize); #elif defined(SAL_W32) (void) VirtualFree ((LPVOID)(pAddr), (SIZE_T)(0), MEM_RELEASE); #endif /* (SAL_UNX || SAL_W32) */ } sal_Size rtl_machdep_pagesize() { #if defined(SAL_UNX) #if defined(FREEBSD) || defined(NETBSD) || defined(DRAGONFLY) return ((sal_Size)getpagesize()); #else /* POSIX */ return ((sal_Size)sysconf(_SC_PAGESIZE)); #endif /* xBSD || POSIX */ #elif defined(SAL_W32) SYSTEM_INFO info; GetSystemInfo (&info); return ((sal_Size)(info.dwPageSize)); #endif /* (SAL_UNX || SAL_W32) */ } } //namespace /* ================================================================= * * * arena initialization. * * ================================================================= */ void rtl_arena_init() { { /* list of arenas */ RTL_MEMORY_LOCK_INIT(&(g_arena_list.m_lock)); rtl_arena_constructor (&(g_arena_list.m_arena_head)); } { /* machdep (pseudo) arena */ static rtl_arena_type g_machdep_arena; assert(gp_machdep_arena == 0); rtl_arena_constructor (&g_machdep_arena); gp_machdep_arena = rtl_arena_activate ( &g_machdep_arena, "rtl_machdep_arena", rtl_machdep_pagesize(), 0, /* no quantum caching */ 0, 0, 0 /* no source */ ); assert(gp_machdep_arena != 0); } { /* default arena */ static rtl_arena_type g_default_arena; assert(gp_default_arena == 0); rtl_arena_constructor (&g_default_arena); gp_default_arena = rtl_arena_activate ( &g_default_arena, "rtl_default_arena", rtl_machdep_pagesize(), 0, /* no quantum caching */ gp_machdep_arena, /* source */ rtl_machdep_alloc, rtl_machdep_free ); assert(gp_default_arena != 0); } { /* arena internal arena */ static rtl_arena_type g_arena_arena; assert(gp_arena_arena == 0); rtl_arena_constructor (&g_arena_arena); gp_arena_arena = rtl_arena_activate ( &g_arena_arena, "rtl_arena_internal_arena", 64, /* quantum */ 0, /* no quantum caching */ gp_default_arena, /* source */ rtl_arena_alloc, rtl_arena_free ); assert(gp_arena_arena != 0); } // SAL_INFO("sal.rtl", "rtl_arena_init completed"); } /* ================================================================= */ void rtl_arena_fini() { if (gp_arena_arena != 0) { rtl_arena_type * arena, * head; RTL_MEMORY_LOCK_ACQUIRE(&(g_arena_list.m_lock)); head = &(g_arena_list.m_arena_head); for (arena = head->m_arena_next; arena != head; arena = arena->m_arena_next) { // SAL_INFO( // "sal.rtl", // "rtl_arena_fini(" << arena->m_name << "): allocs: " // << arena->m_stats.m_alloc << ", frees: " // << arena->m_stats.m_free << "; total: " // << arena->m_stats.m_mem_total << ", used: " // << arena->m_stats.m_mem_alloc); } RTL_MEMORY_LOCK_RELEASE(&(g_arena_list.m_lock)); } // SAL_INFO("sal.rtl", "rtl_arena_fini completed"); } /* ================================================================= */ /* vim:set shiftwidth=4 softtabstop=4 expandtab: */